Mitochondrial DNA Genomes Reveal Relaxed Purifying Selection During Human Population Expansion after the Last Glacial Maximum

Abstract Modern humans have experienced explosive population growth in the past thousand years. We hypothesized that recent human populations have inhabited environments with relaxation of selective constraints, possibly due to the more abundant food supply after the Last Glacial Maximum. The ratio...

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Bibliographic Details
Published in:Molecular biology and evolution 2024-09, Vol.41 (9)
Main Authors: Zheng, Hong-Xiang, Yan, Shi, Zhang, Menghan, Gu, Zhenglong, Wang, Jiucun, Jin, Li
Format: Article
Language:English
Subjects:
Discoveries
DNA, Mitochondrial - genetics
Evolution, Molecular
Genetics, Population
Genome, Mitochondrial
Humans
Mutation
Phylogeny
Population Growth
Selection, Genetic
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Summary:Abstract Modern humans have experienced explosive population growth in the past thousand years. We hypothesized that recent human populations have inhabited environments with relaxation of selective constraints, possibly due to the more abundant food supply after the Last Glacial Maximum. The ratio of nonsynonymous to synonymous mutations (N/S ratio) is a useful and common statistic for measuring selective constraints. In this study, we reconstructed a high-resolution phylogenetic tree using a total of 26,419 East Eurasian mitochondrial DNA genomes, which were further classified into expansion and nonexpansion groups on the basis of the frequencies of their founder lineages. We observed a much higher N/S ratio in the expansion group, especially for nonsynonymous mutations with moderately deleterious effects, indicating a weaker effect of purifying selection in the expanded clades. However, this observation on N/S ratio was unlikely in computer simulations where all individuals were under the same selective constraints. Thus, we argue that the expanded populations were subjected to weaker selective constraints than the nonexpanded populations were. The mildly deleterious mutations were retained during population expansion, which could have a profound impact on present-day disease patterns.
ISSN:0737-4038
1537-1719
1537-1719
DOI:10.1093/molbev/msae175